Chris Walker created a fascinating interactive graphic of migration patterns within the United States. It's based on US Census Bureau's 2012 American Community Survey estimates.

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Chris Walker created a fascinating interactive graphic of migration patterns within the United States. It's based on US Census Bureau's 2012 American Community Survey estimates. Here are a few insights that Walker gleaned:

• First, there are more people leaving California than there are arriving there. 566,986 people left the Golden State in 2012, for states like Texas, Nevada, Washington, and Arizona, presumably for the lower cost of living.

• New York also shows more people leaving than arriving. The most popular destination for New Yorkers is Florida. My hunch is that these are retirees. The next most popular destinations are New Jersey and Pennsylvania. More likely these folks are leaving pricey New York City for more affordable suburbs in neighboring states.

• Migrants are flocking to Florida. Interestingly the state contributing the most migrants to Florida is neighboring Georgia. Texas, New York, and North Carolina are the next largest contributors.

"Restless America: state-to-state migration in 2012" (Thanks, David Steinberg!)]]>http://boingboing.net/2014/01/03/interactive-graphic-of-migrati.html/feed0Statistics explained with the help of modern dancehttp://boingboing.net/2013/10/01/statistics-explained-with-the.html
http://boingboing.net/2013/10/01/statistics-explained-with-the.html#commentsTue, 01 Oct 2013 17:07:26 +0000http://boingboing.net/?p=259111If you're the type of person who really needs some good visuals to make a concept stick in your head, this series of YouTube videos made by the British Psychological Society Media Centre will help you remember the meanings behind statistical concepts like "correlation", "frequency distributions", and "sampling error".]]>

If you're the type of person who really needs some good visuals to make a concept stick in your head, this series of YouTube videos made by the British Psychological Society Media Centre will help you remember the meanings behind statistical concepts like "correlation", "frequency distributions", and "sampling error". There are four videos in the series so far, and they do a great job of painting pictures around abstract ideas. Bonus: Soothing music.

Big Data meets Bigfoot in Penn State PhD candidate Joshua Stevens's visualization of nearly a century of Sasquatch sighting reports in the US and Canada. Stevens mapped and graphed more than 3,000 sightings included in the Bigfoot Field Researchers Organizations's database of geocoded and timestamped reports. Stevens writes:

Right away you can see that sightings are not evenly distributed. At first glance, it looks a lot like a map of population distribution. After all, you would expect sightings to be the most frequent in areas where there are a lot of people. But a bivariate view of the data shows a very different story. There are distinct regions where sightings are incredibly common, despite a very sparse population. On the other hand, in some of the most densely populated areas sasquatch sightings are exceedingly rare.